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肌肉既往经历对猫和人类牵张反射的影响。

Effects of muscle history on the stretch reflex in cat and man.

作者信息

Gregory J E, Mark R F, Morgan D L, Patak A, Polus B, Proske U

机构信息

Department of Physiology, Monash University, Clayton, Victoria, Australia.

出版信息

J Physiol. 1990 May;424:93-107. doi: 10.1113/jphysiol.1990.sp018057.

DOI:10.1113/jphysiol.1990.sp018057
PMID:2391663
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1189803/
Abstract
  1. This is a report of experiments on cat and man which demonstrate effects of a muscle's previous history of contraction and length changes on the size of the stretch reflex. 2. In adult human subjects the size of the tendon jerk was measured in ankle extensor muscles by tapping the Achilles tendon. Muscle conditioning consisted of a maximum voluntary contraction with the foot dorsiflexed or plantarflexed by 30 deg from the test position, after which the subject was asked to relax while the foot was held still for several seconds before being returned to the test position and a tendon tap given. After a contraction of the lengthened muscle the tendon jerk was smaller than after a contraction of the shortened muscle. 3. The experiment was then repeated, but instead of a tendon jerk an H (Hoffmann) reflex was elicited by transcutaneous electrical stimulation of the tibial nerve in the popliteal fossa. The reflex after a conditioning contraction of the lengthened muscle was larger than after a contraction of the shortened muscle. In other words muscle conditioning produced opposite effects on the tendon jerk and H reflex. 4. These findings were confirmed in cats anaesthetized with chloralose. After a conditioning contraction of triceps surae at a length 5 mm longer than the test length (hold-long) a quick tendon stretch produced a smaller reflex response than following a conditioning contraction with the muscle 5 mm shorter than the test length (hold-short). The reverse trend was seen with a reflex elicited by direct electrical stimulation of the muscle nerve, which stimulates the H reflex. 5. One consequence of a conditioning contraction is that it leads to an alteration of the level of resting discharge of muscle spindles. We propose that the larger tendon jerk after a contraction of the shortened muscle is the result of changes in stretch sensitivity of muscle spindles. The reverse effect on the H reflex we attribute to a rise in the level of resting discharge of muscle spindles, which, we propose, leads to reflex inhibition of motoneurones. 6. We support this conclusion with evidence from an experiment in which the size of the conditioning step was systematically altered. Even quite small hold-short conditioning steps led to depression of the H reflex in man and the monosynaptic reflex in cats. Recordings from single afferents showed that such small steps were also accompanied by a detectable rise in spindle resting discharge.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 这是一份关于猫和人类实验的报告,这些实验证明了肌肉先前的收缩历史和长度变化对牵张反射大小的影响。2. 在成年人类受试者中,通过轻敲跟腱来测量踝伸肌的腱反射大小。肌肉调节包括在足部从测试位置背屈或跖屈30度的情况下进行最大自主收缩,之后要求受试者放松,同时足部保持静止几秒钟,然后再回到测试位置并进行腱反射叩击。在拉长的肌肉收缩后,腱反射比缩短的肌肉收缩后要小。3. 然后重复该实验,但不是进行腱反射,而是通过对腘窝处的胫神经进行经皮电刺激来引出H(霍夫曼)反射。在拉长的肌肉进行调节性收缩后的反射比缩短的肌肉收缩后的反射要大。换句话说,肌肉调节对腱反射和H反射产生了相反的影响。4. 在用氯醛糖麻醉的猫身上证实了这些发现。在比目鱼肌在比测试长度长5毫米的长度下进行调节性收缩(长时保持)后,快速的腱拉伸产生的反射反应比在肌肉比测试长度短5毫米的情况下进行调节性收缩(短时保持)后要小。在用肌肉神经直接电刺激引出的反射(即刺激H反射)中观察到了相反的趋势。5. 调节性收缩的一个后果是它会导致肌梭静息放电水平的改变。我们提出,缩短的肌肉收缩后较大的腱反射是肌梭牵张敏感性变化的结果。我们将对H反射的相反影响归因于肌梭静息放电水平的升高,我们认为这会导致运动神经元的反射性抑制。6. 我们通过一项实验的证据来支持这一结论,在该实验中系统地改变了调节步骤的大小。即使是相当小的短时保持调节步骤也会导致人类的H反射和猫的单突触反射受到抑制。对单个传入神经的记录表明,如此小的步骤也伴随着肌梭静息放电的可检测到的升高。(摘要截选至400字)
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6b8e/1189803/7494059a974e/jphysiol00467-0109-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6b8e/1189803/7494059a974e/jphysiol00467-0109-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6b8e/1189803/7494059a974e/jphysiol00467-0109-a.jpg

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本文引用的文献

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The effect of stretch receptors from muscle on the discharge of motorneurons.肌肉中的牵张感受器对运动神经元放电的影响。
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[Persistent depression of the Achilles reflex following stretching of the sural triceps in man].[人体腓肠三头肌拉伸后跟腱反射的持续抑制]
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